1. Radiation treatment of patients with cardiac pacemaker: Wedge type effect estimation
- Author
-
K.M. Kourinou, G. Koukourakis, S. Betsou, P. Georgolopoulou, P. Birmpakos, and A. Miliadou
- Subjects
education.field_of_study ,Computer science ,medicine.medical_treatment ,Biophysics ,General Physics and Astronomy ,Wedge filter ,General Medicine ,Radiation ,Wedge (geometry) ,Linear particle accelerator ,Cardiac pacemaker ,Treatment plan ,medicine ,Photon beams ,Radiology, Nuclear Medicine and imaging ,Radiation treatment planning ,education ,Biomedical engineering - Abstract
Introduction An increasing number of pacemaker patients are receiving radiotherapy in various sites in our department. The need hence arises to accurately determine the radiation burden of pacemaker devices for radiotherapy patients, given the limited tolerance of such devices reported by manufacturers and select the best treatment parameters during the design of their treatment plan. Purpose This study aims to investigate the dependence of pacemaker dose on the type of wedge filter implemented in the radiotherapy machine, comparing the effect of dynamic wedges of various angles to the effect of the universal motorized wedge. Materials and methods In this study two different linear accelerators were used. All measurements were performed with 6 MV photon beams, at a range of distances from the field centre, for wedged and open beams. Dose was measured for dynamic wedges 15°, 30°, 45° and 60° and corresponding motorized wedge angles, for various wedge orientations. Moreover, the above estimated doses were compared with the data from two different treatment planning systems. Results The effect of the wedge filter can elevate the pacemaker dose significantly compared to that of an open field. Comparing the wedge designs measured in this study, the use of a dynamic wedge decreases the pacemaker burden. The pacemaker estimated dose from treatment planning systems diverged from the measured values. Conclusion This study provides data about the pacemaker exposure for different wedge systems. Furthermore, the treatment planning system’s dose estimation errors can not be neglected. more...
- Published
- 2016
- Full Text
- View/download PDF